KR102483537B1 - Seawater penetrating block caisson and its installation method - Google Patents

Abstract

The present invention relates to a seawater circulation block caisson, which includes a wave inflow hole (21) formed on the front surface of a seawater circulation block (20), side holes (22) formed on both sides of the seawater circulation block to allow waves to be introduced and discharged therethrough, and a discharge hole (25) formed on the rear surface of the seawater circulation block to discharge seawater. Moreover, the present invention relates to an installation method of the seawater circulation block caisson, which comprises the following steps of: mounting a first base block (110) with a through-hole (1) on a seabed foundation; mounting upper blocks with through-holes on top of the first base block in alignment with the through-holes; drilling a hole into the seabed foundation through the through-holes of the blocks using drilling equipment, and embedding a steel pipe (2) into the hole; inserting a round bar (3) into the steel pipe hole; performing underwater non-separable grouting (4); integrating the round bar with the top concrete layer constructed on the grouted (4) uppermost block; and curing. The block is the seawater circulation block (20), and can long-lasting wharves and breakwaters, which can lighten weight and facilitate transport by allowing blocks to be assembled in accordance with the caisson size, reduce manufacturing costs by requiring less ready-mixed concrete, enhance stability, enable the good circulation of seawater within the breakwater by the seawater circulation block to maintain a clean marine area by preventing the accumulation of garbage or mud, withstand the waves by weakening the strength of the waves, and provide resistance to typhoons.

Description

Seawater distribution block caisson and its installation method {Seawater penetrating block caisson and its installation method}

The present invention relates to a seawater distribution block caisson structure and its installation method, and more particularly, blocks can be assembled and manufactured according to the size of a caisson, so it is lightweight, so transportation is convenient, and production costs are reduced due to a small amount of ready-mixed concrete, and stability is achieved. This increases, and the seawater distribution block circulates the seawater in the breakwater well, realizing a clean sea area where garbage is not accumulated or mud is accumulated. It relates to a seawater distribution block caisson that can construct facilities and breakwaters and its installation method.

In general, when an offshore structure such as a breakwater or breakwater is installed, the flow of seawater is blocked by the structure, so in the summer, water or garbage accumulates in the inner harbor, causing a bad smell, and the depth of the water is shallow due to the accumulation of mud or sand, requiring continuous dredging. . In the case of the west coast, the tidal difference is severe, and the accumulation of mud in the inner harbor is a continuous problem.

Caissons are being installed in major structures of ports such as coastal ship docking facilities and breakwaters. In particular, caisons are being damaged by high waves caused by tidal waves or storms caused by frequent abnormal weather due to global warming, causing enormous damage. Therefore, caisson development is increasing. And, as an example of the conventional patent technology, Publication No. 10-2021-0011492 discloses a front surface 11, a rear surface 12, a first side surface 15 connecting one end of the front surface and the rear surface, and the front surface and the rear surface. A caisson 10 having a second side surface 16 connecting the other end, wherein the first side surface 15 faces the first side and has a 1-1 normal in a direction upward from the horizontal plane. guide slope (21); and

A pair of first forward and backward guide slopes 22 having a pair of first and second normals that are away from each other in the forward and backward directions; and the second side face 16 faces the second side and is downward from the horizontal plane. The second side guide slope 22 has a normal line of 2-1, has a shape complementary to the first side guide slope surface 21, and is provided in the vertical section corresponding to the first side guide slope surface 21. ); and a pair of 2-2 normals approaching each other in the forward and backward directions, having a shape complementary to the first front and rear guide slopes 22, and a vertical section corresponding to the first front and rear guide slopes 22 A caisson characterized by including a; a pair of second front and rear guide slopes 32 provided on the is disclosed.

In addition, in Publication No. 10-2008-0063721, producing a grout material (3) in a marine B / P ship (2); supplying the grout material 3 to the grouting barge 7;

In the grouting barge (7), simultaneously sending the grout material (3) to a plurality of injection pipes (6) inserted into the injection holes (5) formed at the bottom of the caisson (1); A caisson installation method for constructing an offshore structure is disclosed.

In addition, Registration No. 10-1362918 discloses land-side earth pressure dispersion and bottom friction-increasing type caisson and port facilities using the same, and Registration No. 10-1013024 discloses a caisson breakwater for preventing soft waves and its construction method.

However, the above conventional technologies are difficult to transport due to the heavy weight of the caisson, a lot of ready-mixed concrete and a lot of manpower are consumed, so the manufacturing cost is expensive, and it is weak against waves and typhoons and has a short lifespan. .

In addition, seawater was trapped in the breakwater, and there was a disadvantage in that environmental pollution increased, such as garbage and mud accumulated and odors.

Therefore, the present invention has been devised to solve the above problems, and it is possible to assemble and manufacture blocks according to the size of the caisson, so that it can be lightened, so transportation is convenient, and production costs are reduced because there is less ready-mixed concrete, stability is increased, and seawater The distribution block circulates the seawater in the breakwater well, realizing a clean sea area without accumulation of garbage or mud, and constructing docking facilities and breakwaters that can withstand waves well by weakening the power of waves, are strong against typhoons, and have a long lifespan. It is intended to provide a seawater distribution block caisson and its installation method.

The present invention relates to a seawater distribution block caisson, wherein a wave inlet hole 21 of the seawater distribution block 20 is formed on the front side, side holes 22 through which waves are discharged or introduced are formed on both sides, and a discharge hole is formed on the rear side. (25) is formed and characterized in that seawater escapes.

And the present invention relates to a seawater distribution block caisson installation method, comprising the steps of mounting a first stage foundation block 110 having a through hole 1 formed thereon on a seabed;

Mounting the upper blocks having through-holes on the first stage foundation block, but mounting them in line with the through-holes;

After drilling a hole in the seabed ground through the through-holes of the blocks using a drilling machine, inserting the steel pipe 2;

Inserting the round bar 3 into the steel pipe hole;

Underwater non-separable grouting (4) implementation step;

integrating with the round bar while constructing the upper level concrete on the uppermost block that has been grouted (4);

It is configured to include a; curing step, characterized in that the block is a seawater distribution block (20).

Therefore, the present invention can assemble and manufacture blocks according to the size of the caisson, so it can be lightened, so transportation is convenient, and production costs are reduced because there is less ready-mixed concrete.

The stability is increased, and the seawater in the breakwater is well circulated by the seawater distribution block, realizing a clean sea area where garbage or mud is not accumulated. There is a remarkable effect of constructing berthing facilities and breakwaters.

1 is a conceptual diagram of the sofa block of the present invention
Figure 2 is a conceptual diagram of the sofa block in which the inlet of the present invention is formed
Figure 3 is an arrangement diagram for installing a plurality of sofa blocks of the present invention in one stage
Figure 4 is an arrangement diagram for installing a plurality of sofa blocks of the present invention in two stages
5 is a side cross-sectional view of the sofa block of the present invention
6 is a front cross-sectional view of the sofa block of the present invention
7 is a block caisson first stage assembly view of the present invention
8 is a block caisson two-stage assembly diagram of the present invention
9 is a block caisson assembly diagram in which the round bar anchor of the present invention is bound
10 is a perspective view of a seawater distribution block in which a seawater discharge hole is formed on the rear left side of the present invention
11 is a perspective view of a seawater distribution block in which a seawater discharge hole is formed on the right side of the rear of the present invention
12 is a perspective view of the two-stage seawater distribution block of the present invention
13 is a seawater distribution block installation diagram of the present invention
14 is a construction diagram of the foundation block compaction process of the present invention
15 is a construction diagram of the 1st to 4th stage block mounting process of the present invention
16 is a construction diagram of the steel pipe insertion process of the present invention
17 is a construction diagram of inserting a round bar anchor of the present invention
18 is a construction diagram of the underwater non-separable grouting of the present invention
19 is a construction diagram of the Sangchi concrete process of the present invention
20 is a construction diagram of the curing process of the present invention
21 is a round bar anchor installation diagram of the present invention
22 is a block key configuration diagram formed in the block of the present invention

The present invention relates to a seawater distribution block caisson, wherein a wave inlet hole 21 of the seawater distribution block 20 is formed on the front side, side holes 22 through which waves are discharged or introduced are formed on both sides, and a discharge hole is formed on the rear side. (25) is formed and characterized in that seawater escapes.

In addition, it is characterized in that the inlet portion 12 is formed in the wave inlet hole 21.

In addition, the inlet part is formed on the inner wall of the wave inlet hole, and the cross-sectional area of the inlet part is reduced from the front to a certain position, and the left and right inner wall surfaces are widened from a certain position to the rear blocked part, so that the front and rear are wide and the middle part is narrow. It is characterized in that it is formed in a funnel shape.

In addition, the inlet is characterized in that two or more are formed in the longitudinal direction from the inlet entrance to the rear.

In addition, the inlet is characterized in that it is composed of left and right inflow surfaces formed on the upper and lower surfaces which are flat and the left and right inner walls which are curved surfaces.

In addition, it is characterized in that a plurality of seawater distribution blocks are installed along the coastline.

In addition, it is characterized in that the berthing facilities or breakwaters are constructed using a plurality of seawater distribution blocks.

In addition, the present invention relates to a seawater distribution block caisson installation method, comprising the steps of mounting a first stage foundation block 110 having a through hole 1 formed thereon on a seabed ground;

Mounting the upper blocks having through-holes on the first stage foundation block, but mounting them in line with the through-holes;

After drilling a hole in the seabed ground through the through-holes of the blocks using a drilling machine, inserting the steel pipe 2;

Inserting the round bar 3 into the steel pipe hole;

Underwater non-separable grouting (4) implementation step;

integrating with the round bar while constructing the upper level concrete on the uppermost block that has been grouted (4);

It is configured to include a; curing step, characterized in that the block is a seawater distribution block.

The present invention will be described in detail with reference to the accompanying drawings.

In the seawater distribution block of the present invention, a wave inlet hole is formed on the front side, side holes through which waves are discharged or introduced are formed on both sides, and a discharge hole 25 is formed on the rear side so that seawater escapes.

The wave inlet hole weakens the force of the wave, and in particular, the initial force of the wave is further weakened by the structure of the inlet. And the side hole becomes a seawater passage between adjacent blocks.

In the wave inlet hole, the inlet portion is formed on the inner wall, and the cross-sectional area of the inlet portion is reduced from the front to a certain position, and the left and right inner wall surfaces are widened from a certain position to the rear discharge hole (25), so that the front and rear are wide and the middle part is wide. It is formed in a narrow funnel shape. The inlet portion is formed only at a certain length in the longitudinal direction of the hole, and rectangular holes are formed at regular intervals between the inlet portion and the rear discharge hole 25 .

The inlet may be formed in two or more in the longitudinal direction from the inlet entrance to the rear. The cross section of the middle portion of the inlet may be manufactured to be rectangular or circular.

The inflow part of the present invention is composed of left and right inflow surfaces formed on the upper and lower surfaces which are flat and the left and right inner walls which are curved surfaces. In particular, a columnar vertical inflow portion is formed between the left and right inflow surfaces, so that waves can flow into the block in both left and right directions.

At the rear, a discharge hole 25 is formed so that the seawater escapes. By forming the left or right side, that is, the rear part of the circular column, the seawater flows into the central inlet hole and then exits to the left or right, so that the pressure of the seawater There is a feature of the seawater distribution block of the present invention to allow it to escape through the discharge hole after relieving it to a certain extent. Soon, the inlet hole and the outlet hole should not be in a straight line. In addition, in areas where strong waves occur, the discharge hole is drilled in the lower left or only the lower left to further change the direction of waves and increase the sofa action. Of course, if necessary, the discharge hole can be drilled in the center, but in this case, the sofa function is reduced, so it is preferable to form it on the left, right, or left and right sides.

The sofa block is to construct a berthing facility or a breakwater using a plurality of sofa blocks. In particular, a plurality of blocks can be installed together by combining the seawater distribution block with the sofa block. In this case, the seawater distribution block, which has a large effect of weakening the force of the waves, is installed in the front, and the sofa block, which finally blocks the waves, is installed in the rear to increase the efficiency of installation together.

In particular, when the seawater distribution block is installed in the front and the sofa block is installed in the back, the discharge hole of the seawater distribution block is formed on the left or right side, so the wave inlet hole formed on the front of the sofa block at the rear of the discharge hole is straight. Installed so that the waves smoothly come out of the seawater distribution block and flow into the center of the inlet hole of the sofa block along the inlet and are blocked at the rear blocking surface. Therefore, as a whole, the installation lines of the seawater distribution block and the rear sofa block are arranged zigzag with respect to a straight line from the front to the rear, as if building a brick house. The seawater distribution block and the rear sofa block may be integrally molded by a formwork if necessary. Then, by installing a plurality of integrally molded ones, a breakwater or the like is built as a caisson.

The seawater distribution block construction method of the present invention increases stability by integrating the block to the ground.

One-stage foundation block installation step precedes the selection of foundation sandstone.

Next, the first to fourth-stage blocks are sequentially mounted from the bottom to the top from the first-stage foundation block, but mounted according to the through-holes formed in each seawater distribution block. The height is set according to the site conditions.

After drilling the seabed ground through the through hole using a drilling machine to form a hole, a steel pipe is inserted into the hole and the through hole according to the through hole of the 1st to 4th stage blocks. In the seabed ground, holes are formed by drilling equipment to foundation rubble and sedimentary layers. The present invention increases self-weight and increases frictional force between blocks by filling the inner groove of the block with rubble stones after completing the mounting up to the top block. It is a structure that will soon be finished with integration between blocks. And after drilling a hole in the seabed ground through the through-hole of the blocks using a drilling machine, inserting the steel pipe 2; Depending on site conditions, ground drilling may not be required.

The seafloor ground is layered in the order of foundation rubble, sedimentary layer, and bedrock from bottom to top.

By inserting the round bar vertically into the hole of the steel pipe, underwater non-separable grouting is performed in the space between the inner circumferential surface of the steel pipe and the outer circumferential surface of the round bar.

Then, while constructing the upper level concrete on the grouted uppermost block, the upper level concrete is integrated with the round rod to solidify the bond.

After that, it goes through a curing stage.

In particular, the seawater distribution block of the present invention is manufactured using a steel formwork, and the curved iron plates corresponding to the left and right inlet surfaces, which are insert members, are welded and attached to the inside of the square box in which the inlet hole, the side hole, and the discharge hole are formed.

Between the upper block and the lower block, a rubber ring is installed around the through-hole, and the rubber ring is compressed by the pressure of the upper block to maintain watertightness and to be strong against impact. The rubber ring may use water-expandable rubber.

In particular, in the present invention, when forming a first-stage foundation block in a formwork mold, a nut is inserted in the center in advance, and ready-mixed concrete is poured to produce a sofa block in which the nut is integrated. And when the round bar is inserted and passed through, the round bar is stabilized by the block and the nut.

An anchor may be coupled to the lower end of the round rod to further solidify the ground. The anchor structure is configured so that the surrounding support pieces are unfolded when the anchor is pulled upward so as not to be separated after insertion. The support piece is configured such that the lower part is hinged to the outer periphery of the round bar so that it can be unfolded. The upper part of the support piece is configured to open outward freely, and a coil spring is installed between the upper part of the support piece and the outer periphery of the anchor. When inserted, the coil spring is compressed and the top of the support piece contacts the outer periphery of the anchor, reducing the diameter and lowering the hole. When it is pulled upward while touching, the upper end of the pointed support piece is inserted into the foundation sandstone or weathered rock ground and spreads to act as a hook so that the round bar does not go up any more.

The round bar anchor is coupled to the round bar by a sleeve, and a groove is formed on the lower side of the sleeve, and a locking piece may be installed in the groove. In addition, the locking piece structure of the present invention is installed on both left and right sides of the round bar, respectively.

By manufacturing the nut locking piece around the nut in the same structure as the round bar anchor, it can be configured to be normally widened by the coil spring by forming a groove and hinged the nut locking piece.

On the other hand, the seawater distribution blocks of the present invention form a concave or convex block key in the lower center, respectively, and correspondingly form a convex or concave upper center to prevent the sofa blocks from being pushed to each other by waves. The block key is formed long in the left and right directions to face the waves.

Therefore, the present invention can assemble and manufacture blocks according to the size of the caisson, so it can be lightened, so transportation is convenient, and production costs are reduced because there is less ready-mixed concrete.

The stability is increased, and the seawater in the breakwater is well circulated by the seawater distribution block, realizing a clean sea area where garbage or mud is not accumulated. There is a remarkable effect of constructing berthing facilities and breakwaters.

110: 1 short-term basic block
120: 2-stage foundation block
130: 1 short foundation block 110: 4 short foundation blocks
10: sofa block 20: seawater distribution block
11, 21: inlet hole 12, 22: side hole
23: rear blocking surface 14, 24: inlet part (pillar part)
25: discharge hole
16, 26: upper slab 17, 27: lower slab
40: round bar 41: snag piece
42: hinge 44: round bar groove
1 : block key

Claims (3)

A wave inlet hole 21 of the seawater distribution block 20 is formed on the front side, side holes 22 through which waves are discharged or introduced are formed on both sides, and a discharge hole 25 is formed on the rear side so that seawater escapes. In the seawater distribution block caisson in which the inlet 12 is formed in the wave inlet hole 21,
The side hole 22 becomes a seawater passage between adjacent blocks,
In the wave inlet hole 21, the inlet 12 is formed on the inner wall, and the inlet 12 decreases in cross-sectional area from the front to a certain position, and from a certain position to the rear discharge hole 25 again inside the left and right sides. The wall surface is widened so that the front and rear are wide and the middle is formed in a narrow funnel shape, so that the inlet 12 is formed only at a certain length in the longitudinal direction of the inlet hole 21, and between the inlet and the rear discharge hole 25 Rectangular holes are formed at regular intervals,
The inlet portion 12 is composed of a flat upper and lower surface and left and right inlet surfaces formed on the left and right inner wall surfaces, which are curved surfaces,
At the rear, a discharge hole 25 is formed to allow seawater to escape. By forming it to match the left or right rear part of the circular column, seawater flows into the central inlet hole 21 and then exits to the left or right. By relieving the pressure to a certain extent and then passing through the discharge hole 25, the seawater distribution block caisson, characterized in that the inlet hole 21 and the discharge hole 25 do not line up
delete Mounting the first stage foundation block 110 having the through hole 1 formed thereon on the seabed;
Mounting the upper blocks having through-holes on the first stage foundation block, but mounting them in line with the through-holes;
After drilling a hole in the seabed ground through the through-holes of the blocks using a drilling machine, inserting the steel pipe 2;
Inserting the round bar 3 into the steel pipe hole;
Underwater non-separable grouting (4) implementation step;
integrating with the round bar while constructing the upper level concrete on the uppermost block that has been grouted (4);
Curing step; including
In the seawater distribution block caisson installation method in which the block is the seawater distribution block 20,
In the step of vertically inserting the round bar into the hole of the steel pipe, underwater non-separation grouting is performed in the space between the inner circumferential surface of the steel pipe and the outer circumferential surface of the round bar, and while constructing the upper level concrete on the grouted uppermost block, the upper level concrete is integrated with the round bar to consolidate the bond, , which is produced through a subsequent curing step,
The seawater distribution block has a wave inlet hole 21 of the seawater distribution block 20 formed on the front side, side holes 22 through which waves are discharged or introduced on both sides, and a discharge hole 25 is formed on the rear side It is a seawater distribution block caisson in which an inlet 12 is formed in the wave inlet hole 21, and the side hole 22 becomes a seawater passage between adjacent blocks,
In the wave inlet hole 21, the inlet 12 is formed on the inner wall, and the inlet 12 decreases in cross-sectional area from the front to a certain position, and from a certain position to the rear discharge hole 25 again inside the left and right sides. The wall surface is widened so that the front and rear are wide and the middle is formed in a narrow funnel shape, so that the inlet 12 is formed only at a certain length in the longitudinal direction of the inlet hole 21, and between the inlet and the rear discharge hole 25 Rectangular holes are formed at regular intervals,
The inlet portion 12 is composed of a flat upper and lower surface and left and right inlet surfaces formed on the left and right inner wall surfaces, which are curved surfaces,
In the rear, a discharge hole 25 is formed so that the seawater escapes, by forming the left or right side in line with the rear part of the circular column, so that the seawater flows into the central inlet hole 21 and then exits to the left or right. Seawater distribution block caisson installation method characterized in that the inlet hole 21 and the discharge hole 25 do not line up by relieving the pressure of seawater to a certain extent and then letting it escape through the discharge hole 25

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